"""Reader for WebSocket protocol versions 13 and 8."""

import asyncio
import builtins
from collections import deque
from typing import Deque, Final, List, Optional, Set, Tuple, Union

from ..base_protocol import BaseProtocol
from ..compression_utils import ZLibDecompressor
from ..helpers import _EXC_SENTINEL, set_exception
from ..streams import EofStream
from .helpers import UNPACK_CLOSE_CODE, UNPACK_LEN3, websocket_mask
from .models import (
    WS_DEFLATE_TRAILING,
    WebSocketError,
    WSCloseCode,
    WSMessage,
    WSMsgType,
)

ALLOWED_CLOSE_CODES: Final[Set[int]] = {int(i) for i in WSCloseCode}

# States for the reader, used to parse the WebSocket frame
# integer values are used so they can be cythonized
READ_HEADER = 1
READ_PAYLOAD_LENGTH = 2
READ_PAYLOAD_MASK = 3
READ_PAYLOAD = 4

WS_MSG_TYPE_BINARY = WSMsgType.BINARY
WS_MSG_TYPE_TEXT = WSMsgType.TEXT

# WSMsgType values unpacked so they can by cythonized to ints
OP_CODE_CONTINUATION = WSMsgType.CONTINUATION.value
OP_CODE_TEXT = WSMsgType.TEXT.value
OP_CODE_BINARY = WSMsgType.BINARY.value
OP_CODE_CLOSE = WSMsgType.CLOSE.value
OP_CODE_PING = WSMsgType.PING.value
OP_CODE_PONG = WSMsgType.PONG.value

EMPTY_FRAME_ERROR = (True, b"")
EMPTY_FRAME = (False, b"")

TUPLE_NEW = tuple.__new__

int_ = int  # Prevent Cython from converting to PyInt


class WebSocketDataQueue:
    """WebSocketDataQueue resumes and pauses an underlying stream.

    It is a destination for WebSocket data.
    """

    def __init__(
        self, protocol: BaseProtocol, limit: int, *, loop: asyncio.AbstractEventLoop
    ) -> None:
        self._size = 0
        self._protocol = protocol
        self._limit = limit * 2
        self._loop = loop
        self._eof = False
        self._waiter: Optional[asyncio.Future[None]] = None
        self._exception: Union[BaseException, None] = None
        self._buffer: Deque[Tuple[WSMessage, int]] = deque()
        self._get_buffer = self._buffer.popleft
        self._put_buffer = self._buffer.append

    def is_eof(self) -> bool:
        return self._eof

    def exception(self) -> Optional[BaseException]:
        return self._exception

    def set_exception(
        self,
        exc: "BaseException",
        exc_cause: builtins.BaseException = _EXC_SENTINEL,
    ) -> None:
        self._eof = True
        self._exception = exc
        if (waiter := self._waiter) is not None:
            self._waiter = None
            set_exception(waiter, exc, exc_cause)

    def _release_waiter(self) -> None:
        if (waiter := self._waiter) is None:
            return
        self._waiter = None
        if not waiter.done():
            waiter.set_result(None)

    def feed_eof(self) -> None:
        self._eof = True
        self._release_waiter()

    def feed_data(self, data: "WSMessage", size: "int_") -> None:
        self._size += size
        self._put_buffer((data, size))
        self._release_waiter()
        if self._size > self._limit and not self._protocol._reading_paused:
            self._protocol.pause_reading()

    async def read(self) -> WSMessage:
        if not self._buffer and not self._eof:
            assert not self._waiter
            self._waiter = self._loop.create_future()
            try:
                await self._waiter
            except (asyncio.CancelledError, asyncio.TimeoutError):
                self._waiter = None
                raise
        return self._read_from_buffer()

    def _read_from_buffer(self) -> WSMessage:
        if self._buffer:
            data, size = self._get_buffer()
            self._size -= size
            if self._size < self._limit and self._protocol._reading_paused:
                self._protocol.resume_reading()
            return data
        if self._exception is not None:
            raise self._exception
        raise EofStream


class WebSocketReader:
    def __init__(
        self, queue: WebSocketDataQueue, max_msg_size: int, compress: bool = True
    ) -> None:
        self.queue = queue
        self._max_msg_size = max_msg_size

        self._exc: Optional[Exception] = None
        self._partial = bytearray()
        self._state = READ_HEADER

        self._opcode: Optional[int] = None
        self._frame_fin = False
        self._frame_opcode: Optional[int] = None
        self._frame_payload: Union[bytes, bytearray] = b""
        self._frame_payload_len = 0

        self._tail: bytes = b""
        self._has_mask = False
        self._frame_mask: Optional[bytes] = None
        self._payload_length = 0
        self._payload_length_flag = 0
        self._compressed: Optional[bool] = None
        self._decompressobj: Optional[ZLibDecompressor] = None
        self._compress = compress

    def feed_eof(self) -> None:
        self.queue.feed_eof()

    # data can be bytearray on Windows because proactor event loop uses bytearray
    # and asyncio types this to Union[bytes, bytearray, memoryview] so we need
    # coerce data to bytes if it is not
    def feed_data(
        self, data: Union[bytes, bytearray, memoryview]
    ) -> Tuple[bool, bytes]:
        if type(data) is not bytes:
            data = bytes(data)

        if self._exc is not None:
            return True, data

        try:
            self._feed_data(data)
        except Exception as exc:
            self._exc = exc
            set_exception(self.queue, exc)
            return EMPTY_FRAME_ERROR

        return EMPTY_FRAME

    def _feed_data(self, data: bytes) -> None:
        msg: WSMessage
        for frame in self.parse_frame(data):
            fin = frame[0]
            opcode = frame[1]
            payload = frame[2]
            compressed = frame[3]

            is_continuation = opcode == OP_CODE_CONTINUATION
            if opcode == OP_CODE_TEXT or opcode == OP_CODE_BINARY or is_continuation:
                # load text/binary
                if not fin:
                    # got partial frame payload
                    if not is_continuation:
                        self._opcode = opcode
                    self._partial += payload
                    if self._max_msg_size and len(self._partial) >= self._max_msg_size:
                        raise WebSocketError(
                            WSCloseCode.MESSAGE_TOO_BIG,
                            "Message size {} exceeds limit {}".format(
                                len(self._partial), self._max_msg_size
                            ),
                        )
                    continue

                has_partial = bool(self._partial)
                if is_continuation:
                    if self._opcode is None:
                        raise WebSocketError(
                            WSCloseCode.PROTOCOL_ERROR,
                            "Continuation frame for non started message",
                        )
                    opcode = self._opcode
                    self._opcode = None
                # previous frame was non finished
                # we should get continuation opcode
                elif has_partial:
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        "The opcode in non-fin frame is expected "
                        "to be zero, got {!r}".format(opcode),
                    )

                assembled_payload: Union[bytes, bytearray]
                if has_partial:
                    assembled_payload = self._partial + payload
                    self._partial.clear()
                else:
                    assembled_payload = payload

                if self._max_msg_size and len(assembled_payload) >= self._max_msg_size:
                    raise WebSocketError(
                        WSCloseCode.MESSAGE_TOO_BIG,
                        "Message size {} exceeds limit {}".format(
                            len(assembled_payload), self._max_msg_size
                        ),
                    )

                # Decompress process must to be done after all packets
                # received.
                if compressed:
                    if not self._decompressobj:
                        self._decompressobj = ZLibDecompressor(
                            suppress_deflate_header=True
                        )
                    payload_merged = self._decompressobj.decompress_sync(
                        assembled_payload + WS_DEFLATE_TRAILING, self._max_msg_size
                    )
                    if self._decompressobj.unconsumed_tail:
                        left = len(self._decompressobj.unconsumed_tail)
                        raise WebSocketError(
                            WSCloseCode.MESSAGE_TOO_BIG,
                            "Decompressed message size {} exceeds limit {}".format(
                                self._max_msg_size + left, self._max_msg_size
                            ),
                        )
                elif type(assembled_payload) is bytes:
                    payload_merged = assembled_payload
                else:
                    payload_merged = bytes(assembled_payload)

                if opcode == OP_CODE_TEXT:
                    try:
                        text = payload_merged.decode("utf-8")
                    except UnicodeDecodeError as exc:
                        raise WebSocketError(
                            WSCloseCode.INVALID_TEXT, "Invalid UTF-8 text message"
                        ) from exc

                    # XXX: The Text and Binary messages here can be a performance
                    # bottleneck, so we use tuple.__new__ to improve performance.
                    # This is not type safe, but many tests should fail in
                    # test_client_ws_functional.py if this is wrong.
                    self.queue.feed_data(
                        TUPLE_NEW(WSMessage, (WS_MSG_TYPE_TEXT, text, "")),
                        len(payload_merged),
                    )
                else:
                    self.queue.feed_data(
                        TUPLE_NEW(WSMessage, (WS_MSG_TYPE_BINARY, payload_merged, "")),
                        len(payload_merged),
                    )
            elif opcode == OP_CODE_CLOSE:
                if len(payload) >= 2:
                    close_code = UNPACK_CLOSE_CODE(payload[:2])[0]
                    if close_code < 3000 and close_code not in ALLOWED_CLOSE_CODES:
                        raise WebSocketError(
                            WSCloseCode.PROTOCOL_ERROR,
                            f"Invalid close code: {close_code}",
                        )
                    try:
                        close_message = payload[2:].decode("utf-8")
                    except UnicodeDecodeError as exc:
                        raise WebSocketError(
                            WSCloseCode.INVALID_TEXT, "Invalid UTF-8 text message"
                        ) from exc
                    msg = TUPLE_NEW(
                        WSMessage, (WSMsgType.CLOSE, close_code, close_message)
                    )
                elif payload:
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        f"Invalid close frame: {fin} {opcode} {payload!r}",
                    )
                else:
                    msg = TUPLE_NEW(WSMessage, (WSMsgType.CLOSE, 0, ""))

                self.queue.feed_data(msg, 0)
            elif opcode == OP_CODE_PING:
                msg = TUPLE_NEW(WSMessage, (WSMsgType.PING, payload, ""))
                self.queue.feed_data(msg, len(payload))

            elif opcode == OP_CODE_PONG:
                msg = TUPLE_NEW(WSMessage, (WSMsgType.PONG, payload, ""))
                self.queue.feed_data(msg, len(payload))

            else:
                raise WebSocketError(
                    WSCloseCode.PROTOCOL_ERROR, f"Unexpected opcode={opcode!r}"
                )

    def parse_frame(
        self, buf: bytes
    ) -> List[Tuple[bool, Optional[int], Union[bytes, bytearray], Optional[bool]]]:
        """Return the next frame from the socket."""
        frames: List[
            Tuple[bool, Optional[int], Union[bytes, bytearray], Optional[bool]]
        ] = []
        if self._tail:
            buf, self._tail = self._tail + buf, b""

        start_pos: int = 0
        buf_length = len(buf)

        while True:
            # read header
            if self._state == READ_HEADER:
                if buf_length - start_pos < 2:
                    break
                first_byte = buf[start_pos]
                second_byte = buf[start_pos + 1]
                start_pos += 2

                fin = (first_byte >> 7) & 1
                rsv1 = (first_byte >> 6) & 1
                rsv2 = (first_byte >> 5) & 1
                rsv3 = (first_byte >> 4) & 1
                opcode = first_byte & 0xF

                # frame-fin = %x0 ; more frames of this message follow
                #           / %x1 ; final frame of this message
                # frame-rsv1 = %x0 ;
                #    1 bit, MUST be 0 unless negotiated otherwise
                # frame-rsv2 = %x0 ;
                #    1 bit, MUST be 0 unless negotiated otherwise
                # frame-rsv3 = %x0 ;
                #    1 bit, MUST be 0 unless negotiated otherwise
                #
                # Remove rsv1 from this test for deflate development
                if rsv2 or rsv3 or (rsv1 and not self._compress):
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        "Received frame with non-zero reserved bits",
                    )

                if opcode > 0x7 and fin == 0:
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        "Received fragmented control frame",
                    )

                has_mask = (second_byte >> 7) & 1
                length = second_byte & 0x7F

                # Control frames MUST have a payload
                # length of 125 bytes or less
                if opcode > 0x7 and length > 125:
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        "Control frame payload cannot be larger than 125 bytes",
                    )

                # Set compress status if last package is FIN
                # OR set compress status if this is first fragment
                # Raise error if not first fragment with rsv1 = 0x1
                if self._frame_fin or self._compressed is None:
                    self._compressed = True if rsv1 else False
                elif rsv1:
                    raise WebSocketError(
                        WSCloseCode.PROTOCOL_ERROR,
                        "Received frame with non-zero reserved bits",
                    )

                self._frame_fin = bool(fin)
                self._frame_opcode = opcode
                self._has_mask = bool(has_mask)
                self._payload_length_flag = length
                self._state = READ_PAYLOAD_LENGTH

            # read payload length
            if self._state == READ_PAYLOAD_LENGTH:
                length_flag = self._payload_length_flag
                if length_flag == 126:
                    if buf_length - start_pos < 2:
                        break
                    first_byte = buf[start_pos]
                    second_byte = buf[start_pos + 1]
                    start_pos += 2
                    self._payload_length = first_byte << 8 | second_byte
                elif length_flag > 126:
                    if buf_length - start_pos < 8:
                        break
                    data = buf[start_pos : start_pos + 8]
                    start_pos += 8
                    self._payload_length = UNPACK_LEN3(data)[0]
                else:
                    self._payload_length = length_flag

                self._state = READ_PAYLOAD_MASK if self._has_mask else READ_PAYLOAD

            # read payload mask
            if self._state == READ_PAYLOAD_MASK:
                if buf_length - start_pos < 4:
                    break
                self._frame_mask = buf[start_pos : start_pos + 4]
                start_pos += 4
                self._state = READ_PAYLOAD

            if self._state == READ_PAYLOAD:
                chunk_len = buf_length - start_pos
                if self._payload_length >= chunk_len:
                    end_pos = buf_length
                    self._payload_length -= chunk_len
                else:
                    end_pos = start_pos + self._payload_length
                    self._payload_length = 0

                if self._frame_payload_len:
                    if type(self._frame_payload) is not bytearray:
                        self._frame_payload = bytearray(self._frame_payload)
                    self._frame_payload += buf[start_pos:end_pos]
                else:
                    # Fast path for the first frame
                    self._frame_payload = buf[start_pos:end_pos]

                self._frame_payload_len += end_pos - start_pos
                start_pos = end_pos

                if self._payload_length != 0:
                    break

                if self._has_mask:
                    assert self._frame_mask is not None
                    if type(self._frame_payload) is not bytearray:
                        self._frame_payload = bytearray(self._frame_payload)
                    websocket_mask(self._frame_mask, self._frame_payload)

                frames.append(
                    (
                        self._frame_fin,
                        self._frame_opcode,
                        self._frame_payload,
                        self._compressed,
                    )
                )
                self._frame_payload = b""
                self._frame_payload_len = 0
                self._state = READ_HEADER

        self._tail = buf[start_pos:] if start_pos < buf_length else b""

        return frames